My work was focused on the involvement of different epigenetic mechanisms in PML-RARa-induced acute promyelocytic leukemia (APL). In particular, I studied the role of MBD1, a member of a conserved family of proteins able to bind methylated DNA, demonstrating that has an important function in leukemia progression. Indeed, I showed that MBD1 is recruited by PML-RARa to its target promoters through an HDAC3-mediated mechanism, thus participating in transcriptional repression.. Furthermore, I investigated how far Polycomb-mediated H3K27 methylation contributes to PML-RARa mediated tumorigenesis. I demonstrated that PML-RARa targets the PRC2 to tumor suppressor loci causing H3K27 methylation. Interestingly, I was able to show that both DNA and histone methylation are required to maintain PML-RARa aberrant gene silencing, pointing towards a crosstalk among these different epigenetic layers that contributes to the molecular pathology of leukemia. In summary these results provide new insights into the molecular mechanisms underlying APL tumorigenesis and progression.

Mouse models of intestinal crypt cell differentiation and tumorigenesis have been used to characterize the molecular mechanisms underlying both processes. DNA methylation is a key epigenetic mark and plays an important ...

Background: Aberrant global DNA methylation is shown to increase cancer risk. LINE-1 has been proven a measure of global DNA methylation. The objectives of this study were to assess the association between LINE-1 methylation ...

BACKGROUND: In utero exposure to xenostrogens may modify the epigenome. We explored the association of prenatal exposure to mixtures of xenoestrogens and genome-wide placental DNA methylation. MATERIALS & METHODS: Sex-specific ...